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/* Test for _Atomic in C11. Test floating-point exceptions for
compound assignment are consistent with result (so that if multiple
iterations of the compare-and-exchange loop are needed, exceptions
get properly cleared). */
/* { dg-do run } */
/* { dg-options "-std=c11 -pedantic-errors -pthread -U_POSIX_C_SOURCE -D_POSIX_C_SOURCE=200809L" } */
/* { dg-add-options ieee } */
/* { dg-additional-options "-mfp-trap-mode=sui" { target alpha*-*-* } } */
/* { dg-additional-options "-D_XOPEN_SOURCE=600" { target *-*-solaris2* } } */
/* { dg-require-effective-target fenv_exceptions } */
/* { dg-require-effective-target pthread } */
/* { dg-timeout-factor 2 } */
#include <fenv.h>
#include <float.h>
#include <pthread.h>
#include <stdbool.h>
#include <stdio.h>
#include <stdlib.h>
#define TEST_ALL_EXCEPT (FE_DIVBYZERO \
| FE_INEXACT \
| FE_INVALID \
| FE_OVERFLOW \
| FE_UNDERFLOW)
#if defined __alpha__ || defined __aarch64__
#define ITER_COUNT 100
#else
#define ITER_COUNT 10000
#endif
static volatile _Atomic bool thread_ready, thread_stop;
/* Generate test code (with NAME used to name functions and variables)
for atomic compound assignments to a variable of type LHSTYPE. One
thread repeatedly stores the values INIT1 and INIT2 in a variable,
while the other repeatedly executes PRE var POST having set
floating-point exceptions to BEXC. If the value of the assignment
operation satisfies VALTEST1 (var), the floating-point exceptions
should be BEXC | EXC1; otherwise, they should be BEXC | EXC2. A
function test_main_##NAME is generated that returns nonzero on
failure, zero on success. */
#define TEST_FUNCS(NAME, LHSTYPE, PRE, POST, BEXC, \
INIT1, VALTEST1, EXC1, INIT2, EXC2) \
\
static volatile _Atomic LHSTYPE var_##NAME; \
\
static void * \
test_thread_##NAME (void *arg) \
{ \
thread_ready = true; \
while (!thread_stop) \
{ \
var_##NAME = (INIT1); \
var_##NAME = (INIT2); \
} \
return NULL; \
} \
\
static int \
test_main_##NAME (void) \
{ \
thread_stop = false; \
thread_ready = false; \
var_##NAME = (INIT1); \
pthread_t thread_id; \
int pret = pthread_create (&thread_id, NULL, test_thread_##NAME, \
NULL); \
if (pret != 0) \
{ \
printf ("pthread_create failed: %d\n", pret); \
return 1; \
} \
int num_1_pass = 0, num_1_fail = 0, num_2_pass = 0, num_2_fail = 0; \
while (!thread_ready) \
; \
for (int i = 0; i < ITER_COUNT; i++) \
{ \
feclearexcept (FE_ALL_EXCEPT); \
feraiseexcept (BEXC); \
LHSTYPE r = (PRE var_##NAME POST); \
int rexc = fetestexcept (TEST_ALL_EXCEPT); \
if (VALTEST1 (r)) \
{ \
if (rexc == ((BEXC) | (EXC1))) \
num_1_pass++; \
else \
num_1_fail++; \
var_##NAME = (INIT2); \
} \
else \
{ \
if (rexc == ((BEXC) | (EXC2))) \
num_2_pass++; \
else \
num_2_fail++; \
var_##NAME = (INIT1); \
} \
} \
thread_stop = true; \
pthread_join (thread_id, NULL); \
printf (#NAME " (a) %d pass, %d fail; (b) %d pass, %d fail\n", \
num_1_pass, num_1_fail, num_2_pass, num_2_fail); \
return num_1_fail || num_2_fail; \
}
TEST_FUNCS (float_add_invalid, float, , += __builtin_inff (), 0,
0, __builtin_isinf, 0,
-__builtin_inff (), FE_INVALID)
TEST_FUNCS (float_add_invalid_prev, float, , += __builtin_inff (),
FE_DIVBYZERO | FE_INEXACT | FE_OVERFLOW | FE_UNDERFLOW,
0, __builtin_isinf, 0,
-__builtin_inff (), FE_INVALID)
TEST_FUNCS (float_add_overflow, float, , += FLT_MAX, 0,
FLT_MAX, __builtin_isinf, FE_OVERFLOW | FE_INEXACT,
0, 0)
TEST_FUNCS (float_add_overflow_prev, float, , += FLT_MAX, FE_INVALID,
FLT_MAX, __builtin_isinf, FE_OVERFLOW | FE_INEXACT,
0, 0)
TEST_FUNCS (float_add_overflow_double, float, , += (double) FLT_MAX, 0,
FLT_MAX, __builtin_isinf, FE_OVERFLOW | FE_INEXACT,
0, 0)
TEST_FUNCS (float_add_overflow_long_double, float, , += (long double) FLT_MAX, 0,
FLT_MAX, __builtin_isinf, FE_OVERFLOW | FE_INEXACT,
0, 0)
#define NOT_FLT_EPSILON_2(X) ((X) != FLT_EPSILON / 2)
TEST_FUNCS (float_add_inexact, float, , += FLT_EPSILON / 2, 0,
1.0f, NOT_FLT_EPSILON_2, FE_INEXACT,
0, 0)
#define NOT_0(X) ((X) != 0)
TEST_FUNCS (float_add_inexact_int, float, , += 1, 0,
FLT_EPSILON / 2, NOT_0, FE_INEXACT,
-1, 0)
TEST_FUNCS (float_preinc_inexact, float, ++, , 0,
FLT_EPSILON / 2, NOT_0, FE_INEXACT,
-1, 0)
#define NOT_MINUS_1(X) ((X) != -1)
TEST_FUNCS (float_postinc_inexact, float, , ++, 0,
FLT_EPSILON / 2, NOT_MINUS_1, FE_INEXACT,
-1, 0)
#if FLT_EVAL_METHOD == 0
TEST_FUNCS (long_add_float_inexact, long, , += 2 / FLT_EPSILON, 0,
1, NOT_0, FE_INEXACT,
-2 / FLT_EPSILON, 0)
#endif
#define REAL_ISINF(X) (__builtin_isinf (__real__ (X)))
TEST_FUNCS (complex_float_add_overflow, _Complex float, , += FLT_MAX, 0,
FLT_MAX, REAL_ISINF, FE_OVERFLOW | FE_INEXACT,
0, 0)
TEST_FUNCS (float_sub_invalid, float, , -= __builtin_inff (), 0,
0, __builtin_isinf, 0,
__builtin_inff (), FE_INVALID)
TEST_FUNCS (float_sub_overflow, float, , -= FLT_MAX, 0,
-FLT_MAX, __builtin_isinf, FE_OVERFLOW | FE_INEXACT,
0, 0)
#define NOT_MINUS_FLT_EPSILON_2(X) ((X) != -FLT_EPSILON / 2)
TEST_FUNCS (float_sub_inexact, float, , -= FLT_EPSILON / 2, 0,
-1.0f, NOT_MINUS_FLT_EPSILON_2, FE_INEXACT,
0, 0)
#define NOT_0(X) ((X) != 0)
TEST_FUNCS (float_sub_inexact_int, float, , -= 1, 0,
-FLT_EPSILON / 2, NOT_0, FE_INEXACT,
1, 0)
TEST_FUNCS (float_predec_inexact, float, --, , 0,
-FLT_EPSILON / 2, NOT_0, FE_INEXACT,
1, 0)
#define NOT_1(X) ((X) != 1)
TEST_FUNCS (float_postdec_inexact, float, , --, 0,
-FLT_EPSILON / 2, NOT_1, FE_INEXACT,
1, 0)
#if FLT_EVAL_METHOD == 0
TEST_FUNCS (long_sub_float_inexact, long, , -= 2 / FLT_EPSILON, 0,
-1, NOT_0, FE_INEXACT,
2 / FLT_EPSILON, 0)
#endif
TEST_FUNCS (complex_float_sub_overflow, _Complex float, , -= FLT_MAX, 0,
-FLT_MAX, REAL_ISINF, FE_OVERFLOW | FE_INEXACT,
0, 0)
TEST_FUNCS (float_mul_invalid, float, , *= __builtin_inff (), 0,
__builtin_inff (), __builtin_isinf, 0,
0, FE_INVALID)
TEST_FUNCS (float_mul_overflow, float, , *= FLT_MAX, 0,
FLT_MAX, __builtin_isinf, FE_OVERFLOW | FE_INEXACT,
0, 0)
#define IS_0(X) ((X) == 0)
TEST_FUNCS (float_mul_underflow, float, , *= FLT_MIN, 0,
FLT_MIN, IS_0, FE_UNDERFLOW | FE_INEXACT,
1, 0)
TEST_FUNCS (float_mul_inexact, float, , *= 1 + FLT_EPSILON, 0,
1 + FLT_EPSILON, NOT_0, FE_INEXACT,
0, 0)
TEST_FUNCS (float_mul_inexact_int, float, , *= 3, 0,
1 + FLT_EPSILON, NOT_0, FE_INEXACT,
0, 0)
#if FLT_EVAL_METHOD == 0
TEST_FUNCS(long_mul_float_inexact, long, , *= 3.0f, 0,
1 + 1 / FLT_EPSILON, NOT_0, FE_INEXACT,
0, 0)
#endif
TEST_FUNCS (complex_float_mul_overflow, _Complex float, , *= FLT_MAX, 0,
FLT_MAX, REAL_ISINF, FE_OVERFLOW | FE_INEXACT,
0, 0)
TEST_FUNCS (float_div_invalid_divbyzero, float, , /= 0.0f, 0,
1, __builtin_isinf, FE_DIVBYZERO,
0, FE_INVALID)
TEST_FUNCS (float_div_overflow, float, , /= FLT_MIN, 0,
FLT_MAX, __builtin_isinf, FE_OVERFLOW | FE_INEXACT,
0, 0)
TEST_FUNCS (float_div_underflow, float, , /= FLT_MAX, 0,
FLT_MIN, IS_0, FE_UNDERFLOW | FE_INEXACT,
FLT_MAX, 0)
TEST_FUNCS (float_div_inexact, float, , /= 3.0f, 0,
1, NOT_0, FE_INEXACT,
0, 0)
TEST_FUNCS (float_div_inexact_int, float, , /= 3, 0,
1, NOT_0, FE_INEXACT,
0, 0)
TEST_FUNCS (int_div_float_inexact, int, , /= 3.0f, 0,
4, NOT_0, FE_INEXACT,
0, 0)
TEST_FUNCS (complex_float_div_overflow, _Complex float, , /= FLT_MIN, 0,
FLT_MAX, REAL_ISINF, FE_OVERFLOW | FE_INEXACT,
0, 0)
TEST_FUNCS (double_add_invalid, double, , += __builtin_inf (), 0,
0, __builtin_isinf, 0,
-__builtin_inf (), FE_INVALID)
TEST_FUNCS (double_add_overflow, double, , += DBL_MAX, 0,
DBL_MAX, __builtin_isinf, FE_OVERFLOW | FE_INEXACT,
0, 0)
TEST_FUNCS (double_add_overflow_long_double, double, , += (long double) DBL_MAX, 0,
DBL_MAX, __builtin_isinf, FE_OVERFLOW | FE_INEXACT,
0, 0)
#define NOT_DBL_EPSILON_2(X) ((X) != DBL_EPSILON / 2)
TEST_FUNCS (double_add_inexact, double, , += DBL_EPSILON / 2, 0,
1.0, NOT_DBL_EPSILON_2, FE_INEXACT,
0, 0)
TEST_FUNCS (double_add_inexact_int, double, , += 1, 0,
DBL_EPSILON / 2, NOT_0, FE_INEXACT,
-1, 0)
TEST_FUNCS (double_preinc_inexact, double, ++, , 0,
DBL_EPSILON / 2, NOT_0, FE_INEXACT,
-1, 0)
TEST_FUNCS (double_postinc_inexact, double, , ++, 0,
DBL_EPSILON / 2, NOT_MINUS_1, FE_INEXACT,
-1, 0)
#if FLT_EVAL_METHOD == 0
TEST_FUNCS (long_long_add_double_inexact, long long, , += 2 / DBL_EPSILON, 0,
1, NOT_0, FE_INEXACT,
-2 / DBL_EPSILON, 0)
#endif
TEST_FUNCS (complex_double_add_overflow, _Complex double, , += DBL_MAX, 0,
DBL_MAX, REAL_ISINF, FE_OVERFLOW | FE_INEXACT,
0, 0)
TEST_FUNCS (double_sub_invalid, double, , -= __builtin_inf (), 0,
0, __builtin_isinf, 0,
__builtin_inf (), FE_INVALID)
TEST_FUNCS (double_sub_overflow, double, , -= DBL_MAX, 0,
-DBL_MAX, __builtin_isinf, FE_OVERFLOW | FE_INEXACT,
0, 0)
#define NOT_MINUS_DBL_EPSILON_2(X) ((X) != -DBL_EPSILON / 2)
TEST_FUNCS (double_sub_inexact, double, , -= DBL_EPSILON / 2, 0,
-1.0, NOT_MINUS_DBL_EPSILON_2, FE_INEXACT,
0, 0)
TEST_FUNCS (double_sub_inexact_int, double, , -= 1, 0,
-DBL_EPSILON / 2, NOT_0, FE_INEXACT,
1, 0)
TEST_FUNCS (double_predec_inexact, double, --, , 0,
-DBL_EPSILON / 2, NOT_0, FE_INEXACT,
1, 0)
TEST_FUNCS (double_postdec_inexact, double, , --, 0,
-DBL_EPSILON / 2, NOT_1, FE_INEXACT,
1, 0)
#if FLT_EVAL_METHOD == 0
TEST_FUNCS (long_long_sub_double_inexact, long long, , -= 2 / DBL_EPSILON, 0,
-1, NOT_0, FE_INEXACT,
2 / DBL_EPSILON, 0)
#endif
TEST_FUNCS (complex_double_sub_overflow, _Complex double, , -= DBL_MAX, 0,
-DBL_MAX, REAL_ISINF, FE_OVERFLOW | FE_INEXACT,
0, 0)
TEST_FUNCS (double_mul_invalid, double, , *= __builtin_inf (), 0,
__builtin_inf (), __builtin_isinf, 0,
0, FE_INVALID)
TEST_FUNCS (double_mul_overflow, double, , *= DBL_MAX, 0,
DBL_MAX, __builtin_isinf, FE_OVERFLOW | FE_INEXACT,
0, 0)
TEST_FUNCS (double_mul_overflow_float, double, , *= FLT_MAX, 0,
DBL_MAX, __builtin_isinf, FE_OVERFLOW | FE_INEXACT,
0, 0)
TEST_FUNCS (double_mul_underflow, double, , *= DBL_MIN, 0,
DBL_MIN, IS_0, FE_UNDERFLOW | FE_INEXACT,
1, 0)
TEST_FUNCS (double_mul_inexact, double, , *= 1 + DBL_EPSILON, 0,
1 + DBL_EPSILON, NOT_0, FE_INEXACT,
0, 0)
TEST_FUNCS (double_mul_inexact_int, double, , *= 3, 0,
1 + DBL_EPSILON, NOT_0, FE_INEXACT,
0, 0)
#if FLT_EVAL_METHOD == 0
TEST_FUNCS(long_long_mul_double_inexact, long long, , *= 3.0, 0,
1 + 1 / DBL_EPSILON, NOT_0, FE_INEXACT,
0, 0)
#endif
TEST_FUNCS (complex_double_mul_overflow, _Complex double, , *= DBL_MAX, 0,
DBL_MAX, REAL_ISINF, FE_OVERFLOW | FE_INEXACT,
0, 0)
TEST_FUNCS (double_div_invalid_divbyzero, double, , /= 0.0, 0,
1, __builtin_isinf, FE_DIVBYZERO,
0, FE_INVALID)
TEST_FUNCS (double_div_overflow, double, , /= DBL_MIN, 0,
DBL_MAX, __builtin_isinf, FE_OVERFLOW | FE_INEXACT,
0, 0)
TEST_FUNCS (double_div_underflow, double, , /= DBL_MAX, 0,
DBL_MIN, IS_0, FE_UNDERFLOW | FE_INEXACT,
DBL_MAX, 0)
TEST_FUNCS (double_div_inexact, double, , /= 3.0, 0,
1, NOT_0, FE_INEXACT,
0, 0)
TEST_FUNCS (double_div_inexact_int, double, , /= 3, 0,
1, NOT_0, FE_INEXACT,
0, 0)
TEST_FUNCS (int_div_double_inexact, int, , /= 3.0, 0,
4, NOT_0, FE_INEXACT,
0, 0)
TEST_FUNCS (complex_double_div_overflow, _Complex double, , /= DBL_MIN, 0,
DBL_MAX, REAL_ISINF, FE_OVERFLOW | FE_INEXACT,
0, 0)
TEST_FUNCS (long_double_add_invalid, long double, , += __builtin_infl (), 0,
0, __builtin_isinf, 0,
-__builtin_infl (), FE_INVALID)
#if LDBL_MANT_DIG != 106
TEST_FUNCS (long_double_add_overflow, long double, , += LDBL_MAX, 0,
LDBL_MAX, __builtin_isinf, FE_OVERFLOW | FE_INEXACT,
0, 0)
#define NOT_LDBL_EPSILON_2(X) ((X) != LDBL_EPSILON / 2)
TEST_FUNCS (long_double_add_inexact, long double, , += LDBL_EPSILON / 2, 0,
1.0L, NOT_LDBL_EPSILON_2, FE_INEXACT,
0, 0)
TEST_FUNCS (long_double_add_inexact_int, long double, , += 1, 0,
LDBL_EPSILON / 2, NOT_0, FE_INEXACT,
-1, 0)
TEST_FUNCS (long_double_preinc_inexact, long double, ++, , 0,
LDBL_EPSILON / 2, NOT_0, FE_INEXACT,
-1, 0)
TEST_FUNCS (long_double_postinc_inexact, long double, , ++, 0,
LDBL_EPSILON / 2, NOT_MINUS_1, FE_INEXACT,
-1, 0)
TEST_FUNCS (complex_long_double_add_overflow, _Complex long double, , += LDBL_MAX, 0,
LDBL_MAX, REAL_ISINF, FE_OVERFLOW | FE_INEXACT,
0, 0)
#endif
TEST_FUNCS (long_double_sub_invalid, long double, , -= __builtin_infl (), 0,
0, __builtin_isinf, 0,
__builtin_infl (), FE_INVALID)
#if LDBL_MANT_DIG != 106
TEST_FUNCS (long_double_sub_overflow, long double, , -= LDBL_MAX, 0,
-LDBL_MAX, __builtin_isinf, FE_OVERFLOW | FE_INEXACT,
0, 0)
#define NOT_MINUS_LDBL_EPSILON_2(X) ((X) != -LDBL_EPSILON / 2)
TEST_FUNCS (long_double_sub_inexact, long double, , -= LDBL_EPSILON / 2, 0,
-1.0L, NOT_MINUS_LDBL_EPSILON_2, FE_INEXACT,
0, 0)
TEST_FUNCS (long_double_sub_inexact_int, long double, , -= 1, 0,
-LDBL_EPSILON / 2, NOT_0, FE_INEXACT,
1, 0)
TEST_FUNCS (long_double_predec_inexact, long double, --, , 0,
-LDBL_EPSILON / 2, NOT_0, FE_INEXACT,
1, 0)
TEST_FUNCS (long_double_postdec_inexact, long double, , --, 0,
-LDBL_EPSILON / 2, NOT_1, FE_INEXACT,
1, 0)
TEST_FUNCS (complex_long_double_sub_overflow, _Complex long double, , -= LDBL_MAX, 0,
-LDBL_MAX, REAL_ISINF, FE_OVERFLOW | FE_INEXACT,
0, 0)
#endif
TEST_FUNCS (long_double_mul_invalid, long double, , *= __builtin_infl (), 0,
__builtin_infl (), __builtin_isinf, 0,
0, FE_INVALID)
TEST_FUNCS (long_double_mul_overflow, long double, , *= LDBL_MAX, 0,
LDBL_MAX, __builtin_isinf, FE_OVERFLOW | FE_INEXACT,
0, 0)
TEST_FUNCS (long_double_mul_overflow_float, long double, , *= FLT_MAX, 0,
LDBL_MAX, __builtin_isinf, FE_OVERFLOW | FE_INEXACT,
0, 0)
TEST_FUNCS (long_double_mul_overflow_double, long double, , *= DBL_MAX, 0,
LDBL_MAX, __builtin_isinf, FE_OVERFLOW | FE_INEXACT,
0, 0)
TEST_FUNCS (long_double_mul_underflow, long double, , *= LDBL_MIN, 0,
LDBL_MIN, IS_0, FE_UNDERFLOW | FE_INEXACT,
1, 0)
#if LDBL_MANT_DIG != 106
TEST_FUNCS (long_double_mul_inexact, long double, , *= 1 + LDBL_EPSILON, 0,
1 + LDBL_EPSILON, NOT_0, FE_INEXACT,
0, 0)
TEST_FUNCS (long_double_mul_inexact_int, long double, , *= 3, 0,
1 + LDBL_EPSILON, NOT_0, FE_INEXACT,
0, 0)
#endif
TEST_FUNCS (complex_long_double_mul_overflow, _Complex long double, , *= LDBL_MAX, 0,
LDBL_MAX, REAL_ISINF, FE_OVERFLOW | FE_INEXACT,
0, 0)
TEST_FUNCS (long_double_div_invalid_divbyzero, long double, , /= 0.0L, 0,
1, __builtin_isinf, FE_DIVBYZERO,
0, FE_INVALID)
TEST_FUNCS (long_double_div_overflow, long double, , /= LDBL_MIN, 0,
LDBL_MAX, __builtin_isinf, FE_OVERFLOW | FE_INEXACT,
0, 0)
TEST_FUNCS (long_double_div_underflow, long double, , /= LDBL_MAX, 0,
LDBL_MIN, IS_0, FE_UNDERFLOW | FE_INEXACT,
LDBL_MAX, 0)
TEST_FUNCS (long_double_div_inexact, long double, , /= 3.0L, 0,
1, NOT_0, FE_INEXACT,
0, 0)
TEST_FUNCS (long_double_div_inexact_int, long double, , /= 3, 0,
1, NOT_0, FE_INEXACT,
0, 0)
TEST_FUNCS (int_div_long_double_inexact, int, , /= 3.0L, 0,
4, NOT_0, FE_INEXACT,
0, 0)
TEST_FUNCS (complex_long_double_div_overflow, _Complex long double, , /= LDBL_MIN, 0,
LDBL_MAX, REAL_ISINF, FE_OVERFLOW | FE_INEXACT,
0, 0)
int
main (void)
{
int ret = 0;
ret |= test_main_float_add_invalid ();
ret |= test_main_float_add_invalid_prev ();
ret |= test_main_float_add_overflow ();
ret |= test_main_float_add_overflow_prev ();
ret |= test_main_float_add_overflow_double ();
ret |= test_main_float_add_overflow_long_double ();
ret |= test_main_float_add_inexact ();
ret |= test_main_float_add_inexact_int ();
ret |= test_main_float_preinc_inexact ();
ret |= test_main_float_postinc_inexact ();
#if FLT_EVAL_METHOD == 0
ret |= test_main_long_add_float_inexact ();
#endif
ret |= test_main_complex_float_add_overflow ();
ret |= test_main_float_sub_invalid ();
ret |= test_main_float_sub_overflow ();
ret |= test_main_float_sub_inexact ();
ret |= test_main_float_sub_inexact_int ();
ret |= test_main_float_predec_inexact ();
ret |= test_main_float_postdec_inexact ();
#if FLT_EVAL_METHOD == 0
ret |= test_main_long_sub_float_inexact ();
#endif
ret |= test_main_complex_float_sub_overflow ();
ret |= test_main_float_mul_invalid ();
ret |= test_main_float_mul_overflow ();
ret |= test_main_float_mul_underflow ();
ret |= test_main_float_mul_inexact ();
ret |= test_main_float_mul_inexact_int ();
#if FLT_EVAL_METHOD == 0
ret |= test_main_long_mul_float_inexact ();
#endif
ret |= test_main_complex_float_mul_overflow ();
ret |= test_main_float_div_invalid_divbyzero ();
ret |= test_main_float_div_overflow ();
ret |= test_main_float_div_underflow ();
ret |= test_main_float_div_inexact ();
ret |= test_main_float_div_inexact_int ();
ret |= test_main_int_div_float_inexact ();
ret |= test_main_complex_float_div_overflow ();
ret |= test_main_double_add_invalid ();
ret |= test_main_double_add_overflow ();
ret |= test_main_double_add_overflow_long_double ();
ret |= test_main_double_add_inexact ();
ret |= test_main_double_add_inexact_int ();
ret |= test_main_double_preinc_inexact ();
ret |= test_main_double_postinc_inexact ();
#if FLT_EVAL_METHOD == 0
ret |= test_main_long_long_add_double_inexact ();
#endif
ret |= test_main_complex_double_add_overflow ();
ret |= test_main_double_sub_invalid ();
ret |= test_main_double_sub_overflow ();
ret |= test_main_double_sub_inexact ();
ret |= test_main_double_sub_inexact_int ();
ret |= test_main_double_predec_inexact ();
ret |= test_main_double_postdec_inexact ();
#if FLT_EVAL_METHOD == 0
ret |= test_main_long_long_sub_double_inexact ();
#endif
ret |= test_main_complex_double_sub_overflow ();
ret |= test_main_double_mul_invalid ();
ret |= test_main_double_mul_overflow ();
ret |= test_main_double_mul_overflow_float ();
ret |= test_main_double_mul_underflow ();
ret |= test_main_double_mul_inexact ();
ret |= test_main_double_mul_inexact_int ();
#if FLT_EVAL_METHOD == 0
ret |= test_main_long_long_mul_double_inexact ();
#endif
ret |= test_main_complex_double_mul_overflow ();
ret |= test_main_double_div_invalid_divbyzero ();
ret |= test_main_double_div_overflow ();
ret |= test_main_double_div_underflow ();
ret |= test_main_double_div_inexact ();
ret |= test_main_double_div_inexact_int ();
ret |= test_main_int_div_double_inexact ();
ret |= test_main_complex_double_div_overflow ();
ret |= test_main_long_double_add_invalid ();
#if LDBL_MANT_DIG != 106
ret |= test_main_long_double_add_overflow ();
ret |= test_main_long_double_add_inexact ();
ret |= test_main_long_double_add_inexact_int ();
ret |= test_main_long_double_preinc_inexact ();
ret |= test_main_long_double_postinc_inexact ();
ret |= test_main_complex_long_double_add_overflow ();
#endif
ret |= test_main_long_double_sub_invalid ();
#if LDBL_MANT_DIG != 106
ret |= test_main_long_double_sub_overflow ();
ret |= test_main_long_double_sub_inexact ();
ret |= test_main_long_double_sub_inexact_int ();
ret |= test_main_long_double_predec_inexact ();
ret |= test_main_long_double_postdec_inexact ();
ret |= test_main_complex_long_double_sub_overflow ();
#endif
ret |= test_main_long_double_mul_invalid ();
ret |= test_main_long_double_mul_overflow ();
ret |= test_main_long_double_mul_overflow_float ();
ret |= test_main_long_double_mul_overflow_double ();
ret |= test_main_long_double_mul_underflow ();
#if LDBL_MANT_DIG != 106
ret |= test_main_long_double_mul_inexact ();
ret |= test_main_long_double_mul_inexact_int ();
#endif
ret |= test_main_complex_long_double_mul_overflow ();
ret |= test_main_long_double_div_invalid_divbyzero ();
ret |= test_main_long_double_div_overflow ();
ret |= test_main_long_double_div_underflow ();
ret |= test_main_long_double_div_inexact ();
ret |= test_main_long_double_div_inexact_int ();
ret |= test_main_int_div_long_double_inexact ();
ret |= test_main_complex_long_double_div_overflow ();
if (ret != 0)
abort ();
else
exit (0);
}
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